石振国，湖南大学土木工程学院教授、博士生导师、岳麓学者、青矩学者，入选“国家级青年人才计划”，欧盟“玛丽居里学者”。担任SCI国际期刊Frontiers in Materials | Structural Materials副主编，以及数十个SCI国际期刊论文评审专家；曾担任首届清华大学水泥混凝土博士生论坛暨第七届水泥化学热力学建模（GEMS）博士生课程讲师，以及国际材料与结构研究实验联合会（RILEM）3个技术委员会的委员。主要从事“绿色低碳胶凝材料、混凝土耐久性、固废资源化及水泥化学热力学模拟”等方面的研究工作。已主持和参与科研及企业项目10余项，发表SCI论文41篇，包括水泥混凝土领域顶级期刊（TOP 1）Cement and Concrete Research（CCR）论文17篇，总引用4500余次。曾在法国、丹麦、挪威、瑞士和德国多个国家的知名高校、研究所和企业进行学习和工作，在水泥混凝土领域拥有超过连续12年的海外学习和工作经历。2024年辞去海外永久职务，全职回国工作。回国前，担任世界最大的水泥制品生产商之一德国海德堡材料集团（原德国海德堡水泥集团）全球研发中心科学家和项目经理职务。在海德堡水泥工作期间（2021～2024），负责的VPI项目推动了北欧相关标准的修订，相关产品将于2024年底投入瑞典市场。

联系方式：zshi@hnu.edu.cn

2024.04-至今 湖南大学，土木工程学院，教授、博士生导师2021.08-2024.03德国海德堡材料集团（原海德堡水泥集团），全球研发中心，研究科学家&项目经理

2017.09-2021.05瑞士联邦材料科学与技术研究所，博士后&欧盟玛丽居里学者，导师：B.Lothenbach教授

2016.03-2017.08丹麦奥胡斯大学，化学系&交叉学科纳米科学中心，博士后，导师：J.Skibsted教授

2013.01-2016.03丹麦奥胡斯大学，化学系&交叉学科纳米科学中心，纳米科学专业，博士，导师：J.Skibsted教授，合作导师：挪威科技大学M.R.Geiker教授，瑞士联邦材料科学与技术研究所B.Lothenbach教授

2011.10-2012.09法国国立路桥学校，可持续建筑材料专业，硕士

2009.09-2012.06湖南大学，土木工程学院，结构工程专业，硕士，导师：史才军教授

2005.09-2009.06东华理工大学，土木与环境工程学院，土木工程专业，本科

发表论文：

[1]L.Yang,Z.Shi,K.Li,X.Hu,C.Shi.Expansion of irregularly shaped aggregate induced by alkali-silica reaction:Insights from numerical modeling.Cem.Concr.Res.187(2025):107727.

[2]S.A.Bernal,Y.Dhandapani,Y.Elakneswaran,G.J.G.Gluth,E.Gruyaert,M.C.G.Juenger,B.Lothenbach,K.A.Olonade,M.Sakoparnig,Z.Shi,C.Thiel,P.Van den Heede,H.Vanoutrive,S.von Greve-Dierfeld,N.De Belie,John L.Provis.Report of RILEM TC 281-CCC-A critical review of the standardised testing methods to determine carbonation resistance of concrete.Mater.Struct.57.8(2024)173.

[3]T.Wang,S.Medepalli,Y.Zheng,W.Zhang,T.Ishida,S.Bishnoi,D.Hou,Z.Shi.Retardation effect of the pozzolanic reaction of low-calcium supplementary cementitious materials on clinker hydration at later age:Effects of pore solution,foreign ions,and pH.Cem.Concr.Res.177(2024):107416.

[4]T.Wang,S.Jiao,W.Hu,T.Ishida,Z.Wang,J.Ye,Y.Zheng,Z.Shi,S.Medepalli.Effects of Al/Si ratio and crystallite size on the dissolution rate of aluminosilicate glass and low-calcium SCMs under alkaline condition,Mater.Today Chem.33(2023):101673

[5]Z.Shi,B.Lothenbach.Role of Aluminum and Lithium in Mitigating Alkali-Silica Reaction—A Review,Front.Mater.8(2022):796396.

[6]G.Geng,S.Barbotin,M.Shakoorioskooie,Z.Shi,A.Leemann,D.F.Sanchez,D.Grolimund,E.Wieland.And R.Dähn.An in-situ 3D micro-XRD investigation of water uptake by alkali-silica-reaction(ASR)product.Cem.Concr.Res.141(2021):106331.

[7]Z.Shi,B.Ma,B.Lothenbach.Effect of Al on the formation and structure of alkali-silica reaction products.Cem.Concr.Res.140(2021):106311.

[8]S.vonGreve-Dierfeld,B.Lothenbach,A.Vollpracht,B.Wu,B.Huet,C.Andrade,C.Medina,C.Thiel,E.Gruyaert,H.Vanoutrive,I.F.S.del Bosque,I.Ignjatovic,J.Elsen,J.L.Provis,K.Scrivener,K.-C.Thienel,K.Sideris,M.Zajac,N.Alderete,Ö.Cizer,P.Van den Heede,R.D.Hooton,S.Kamali-Bernard,S.A.Bernal,Z.Zhao,Z.Shi,N.De Belie,Understanding the carbonation of concrete with supplementary cementitious materials:a critical review by RILEM TC 281-CCC,Mater.Struct.53.6(2020)136.

[9]Z.Shi,S.Park,B.Lothenbach,A.Leemann,Formation of shlykovite and ASR-P1 in concrete under accelerated alkali-silica reaction at 60 and 80°C,Cem.Concr.Res.137(2020)106213.

[10]A.Leemann,Z.Shi,J.Lindgård,Characterization of amorphous and crystalline ASR products formed in concrete aggregates,Cem.Concr.Res.137(2020)106190.

[11]A.Leemann,Z.Shi,M.Wyrzykowski,F.Winnefeld,Moisture stability of crystalline alkali-silica reaction products formed in concrete exposed to natural environment,Mater.Des.195(2020)109066.

[12]T.Honorio,O.M.C.Tamouya,Z.Shi,A.Bourdot,Intermolecular interactions of nanocrystalline alkali-silica reaction products under sorption,Cem.Concr.Res.136(2020)106155.

[13]G.Geng,Z.Shi,A.Leemann,K.Glazyrin,A.Kleppe,D.Daisenberger,S.Churakov,B.Lothenbach,R.Dähn,E.Wieland,Mechanical behavior and phase change of alkali-silica-reaction products under hydrostatic compression,Acta Crystallogr.Sect.B Struct.Sci.Cryst.Eng.Mater.76(2020).

[14]Z.Peng,C.Shi,Z.Shi,B.Lu,S.Wan,Z.Zhang,J.Chang,T.Zhang,Alkali-aggregate reaction in recycled aggregate concrete,J.Clean.Prod.255(2020)120238.

[15]Z.Shi,A.Leemann,D.Rentsch,B.Lothenbach,Synthesis of alkali-silica reaction product structurally identical to that formed in field concrete,Mater.Des.190(2020)108562.

[16]G.Geng,Z.Shi,A.Leemann,C.Borca,T.Huthwelker,K.Glazyrin,I.V.Pekov,S.Churakov,B.Lothenbach,R.Dähn,E.Wieland,Atomistic structure of alkali-silica reaction products refined from X-ray diffraction and micro X-ray absorption data,Cem.Concr.Res.(2020)105958.

[17]Z.Shi,B.Lothenbach,The combined effect of potassium,sodium and calcium on the formation of alkali-silica reaction products,Cem.Concr.Res.127(2020)105914.

[18]Z.Shi,B.Lothenbach,The role of calcium on the formation of alkali-silica reaction products,Cem.Concr.Res.126(2019)105898.

[19]T.Huang,B.Li,Q.Yuan,Z.Shi,Y.Xie,C.Shi,Rheological behavior of Portland clinker-calcium sulphoaluminate clinker-anhydrite ternary blend,Cem.Concr.Compos.104(2019)103403.

[20]X.Hu,C.Shi,Z.Shi,L.Zhang,Compressive strength,pore structure and chloride transport properties of alkali-activated slag/fly ash mortars,Cem.Concr.Compos.104(2019)103392.

[21]Z.Shi,G.Geng,A.Leemann,B.Lothenbach,Synthesis,characterization,and water uptake property of alkali-silica reaction products,Cem.Concr.Res.121(2019)58–71.

[22]Z.Shi,S.Ferreiro,B.Lothenbach,M.R.Geiker,W.Kunther,J.Kaufmann,D.Herfort,J.Skibsted,Sulfate resistance of calcined clay–Limestone–Portland cements,Cem.Concr.Res.116(2019)238–251.

[23]D.Wang,C.Shi,N.Farzadnia,Z.Shi,H.Jia,A review on effects of limestone powder on the properties of concrete,Constr.Build.Mater.192(2018)153–166.

[24]D.Wang,C.Shi,N.Farzadnia,Z.Shi,H.Jia,Z.Ou,A review on use of limestone powder in cement-based materials:Mechanism,hydration and microstructures,Constr.Build.Mater.181(2018)659–672.

[25]Z.Shi,C.Shi,S.Wan,N.Li,Z.Zhang,Effect of alkali dosage and silicate modulus on carbonation of alkali-activated slag mortars,Cem.Concr.Res.113(2018)55–64.

[26]Z.Shi,C.Shi,S.Wan,Z.Zhang,Effects of alkali dosage and silicate modulus on alkali-silica reaction in alkali-activated slag mortars,Cem.Concr.Res.111(2018)104–115.

[27]Z.Shi,C.Shi,J.Zhang,S.Wan,Z.Zhang,Z.Ou,Alkali-silica reaction in waterglass-activated slag mortars incorporating fly ash and metakaolin,Cem.Concr.Res.108(2018)10–19.

[28]F.He,R.Wang,C.Shi,R.Zhang,Z.Shi,D.Zhang,Effect of bound chloride on extraction of water soluble chloride in cement-based materials exposed to a chloride salt solution,Constr.Build.Mater.160(2018)223–232.

[29]X.Hu,C.Shi,Z.Shi,B.Tong,D.Wang,Early age shrinkage and heat of hydration of cement-fly ash-slag ternary blends,Constr.Build.Mater.153(2017)857–865.

[30]X.Hu,Z.Shi,C.Shi,Z.Wu,B.Tong,Z.Ou,G.de Schutter,Drying shrinkage and cracking resistance of concrete made with ternary cementitious components,Constr.Build.Mater.149(2017)406–415.

[31]Z.Shi,C.Shi,S.Wan,Z.Ou,Effect of alkali dosage on alkali-silica reaction in sodium hydroxide activated slag mortars,Constr.Build.Mater.143(2017)16–23.

[32]Z.Shi,M.R.Geiker,K.De Weerdt,T.A.Østnor,B.Lothenbach,F.Winnefeld,J.Skibsted,Role of calcium on chloride binding in hydrated Portland cement–metakaolin–limestone blends,Cem.Concr.Res.95(2017)205–216.

[33]X.Pan,Z.Shi,C.Shi,T.-C.Ling,N.Li,A review on surface treatment for concrete–Part 2:Performance,Constr.Build.Mater.133(2017)81–90.

[34]X.Pan,Z.Shi,C.Shi,T.-C.Ling,N.Li,A review on concrete surface treatment Part I:Types and mechanisms,Constr.Build.Mater.132(2017)578–590.

[35]Z.Shi,M.R.Geiker,B.Lothenbach,K.De Weerdt,S.F.Garzón,K.Enemark-Rasmussen,J.Skibsted,Friedel’s salt profiles from thermogravimetric analysis and thermodynamic modelling of Portland cement-based mortars exposed to sodium chloride solution,Cem.Concr.Compos.78(2017)73–83.

[36]F.He,C.Shi,X.Hu,R.Wang,Z.Shi,Q.Li,P.Li,X.An,Calculation of chloride ion concentration in expressed pore solution of cement-based materials exposed to a chloride salt solution,Cem.Concr.Res.89(2016)168–176.

[37]Z.Shi,B.Lothenbach,M.R.Geiker,J.Kaufmann,A.Leemann,S.Ferreiro,J.Skibsted,Experimental studies and thermodynamic modeling of the carbonation of Portland cement,metakaolin and limestone mortars,Cem.Concr.Res.88(2016)60–72.

[38]Z.Shi,C.Shi,H.Liu,P.Li,Effects of triisopropanol amine,sodium chloride and limestone on the compressive strength and hydration of Portland cement,Constr.Build.Mater.125(2016)210–218.

[39]X.Pan,Z.Shi,C.Shi,X.Hu,L.Wu,Interactions between inorganic surface treatment agents and matrix of Portland cement-based materials,Constr.Build.Mater.113(2016)721–731.

[40]Z.Shi,C.Shi,R.Zhao,D.Wang,F.He,Factorial design method for designing ternary composite cements to mitigate ASR expansion,J.Mater.Civ.Eng.28(2016)04016064.

[41]Z.Shi,C.Shi,R.Zhao,S.Wan,Comparison of alkali–silica reactions in alkali-activated slag and Portland cement mortars,Mater.Struct.48(2015)743–751.

[42]C.Shi,Z.Shi,X.Hu,R.Zhao,L.Chong,A review on alkali-aggregate reactions in alkali-activated mortars/concretes made with alkali-reactive aggregates,Mater.Struct.48(2015)621–628.

[43]T.Schade,M.Zajac,Z.Shi,J.Skocek.Effect of carbonation technique on the performance properties of cRCP in composite cements.ce/papers 6(6),(2023)1309-1315

[44]A.Leemann,M.Bagheri,B.Lothenbach,K.Scrivener,S.Barbotin,E.Boehm‐Courjault,G.Geng,R.Dähn,Z.Shi,M.Shakoorioskooie,M.Griffa.Alkali‐silica reaction–a multidisciplinary approach.RILEM Tech.Lett.,6,(2021)169-187.

[45]史才军,石振国,卢都友,何富强,&黄政宇.长沙地区湘江砂卵石的碱活性及安全使用条件.硅酸盐学报,39(1),(2011)13-19.

[46]Geotechnical Journal,59(8):1474–1486.https://doi.org/10.1139/cgj-2021-0069

[1]2024，入选全球前2%顶尖科学家“年度科学影响力”榜单

[2]2024，Best Presentation;10th Conference of Asian Concrete Federation,August 15-18,Ulaanbaatar,Mongolia

[3]2024，湖南大学“青矩学者”

[4]2024，湖南大学“岳麓学者”

[5]2022，入选国家级高层次青年人才计划

[6]2020，Le Chatelier distinguished paper,Cement and Concrete Research(co-author)

[7]2020，Materials and Structures:Outstanding Paper(co-author)

[8]2018，Best Poster Jury Award;NUWCEM conference,October 24-26,Avignon,France

[9]2018，Marie Skłodowska-Curie Fellow

[10]2018，Outstanding Contribution in Reviewing awarded in recognition of the contribution made to Cement and Concrete Research

[11]2018，Outstanding Contribution in Reviewing awarded in recognition of the contribution made to Construction and Building Materials

[12]2017，Marie Sklodowska-Curie actions Seal of Excellence

[13]2010，湖南大学优秀研究生

[14]2009，东华理工大学优秀毕业生